the petroleum recovery research center 101217 item 2... · industry service and outreach group...
TRANSCRIPT
THE PETROLEUM RECOVERY RESEARCH CENTER
NEW MEXICO INSTITUTE OF MINING AND TECHNOLOGY
ROBERT BALCH
DIRECTOR
WHERE IS THE PRRC?
• Located in Socorro
• Central location ~3-4
hour drive to all
producing areas in the
state
https://geoinfo.nmt.edu/faq/energy/petroleum/home.html
NEW MEXICO INSTITUTE OF MINING AND TECHNOLOGY
KELLY HALL
Addition 2009 Original Building 1978
THE PRRC IN 1978Created by New Mexico Statute: NMSA 1978, Article 9 as a division of New
Mexico Tech
Duties:
“The objectives and duties of the New Mexico Petroleum Recovery Research Center shall be as
follows:
A. to engage in theoretical and practical research into the recovery of petroleum and other
energy resources;
B. to disseminate the knowledge acquired;
C. to assist, in all legal ways, persons and entities in the state in their efforts to effect
additional recovery of petroleum and other energy resources from the state;
THE PRRC IN 1978
D. to perform any and all tasks in the area of petroleum recovery and other energy research
as directed by the board of regents of the New Mexico Institute of Mining and Technology;
and
E. to cooperate with all other state and federal agencies as may be beneficial in carrying out
the work of the New Mexico Petroleum Recovery Research Center.
Sources of income.
• The center may receive appropriations from the state directly or through the board of
regents and may receive any or other items of value from public or private sources.”
• 21 Regular employees
• 6 Support staff: Lab assistants, IT, accounting, clerical, technical writing, machine shop
• 15 Research staff in eight research groups
• 4 Supported Faculty, with summer salary in Hydrology, Geophysics, Petroleum
Engineering, and Engineering Management, funded through collaboration with
researchers.
• 28 supported students, currently funding 17 graduate students and 11 undergraduate
students.
THE PRRC TODAY
Robert BalchDirector
REACT Group
Randy Seright
Reservoir
Sweep
Improvement
Reid Grigg
Gas Flooding
Processes and
Flow
Heterogeneities
Martha Cather
Industrial
Services &
Outreach
TBD
CCUS and
Membrane
Technologies
Guoyin Zhang
Alkali
Surfactant
Polymers
Jianjia Yu
Produced
Water and
Petroleum
Engineering
Tianguang Fan
Petrophysics and
Surface
Chemistry
PRRC FACILITIES• 24 Laboratories with over 10,000 ft2 of lab space, including:
• Core Flooding
• Materials synthesis
• Produced water treatment
• Computing
• Machine shop
• Server Room
• Chemical storage
• Meeting and Seminar rooms Prototype field desalination unit developed at PRRC
• Field sites in New Mexico and Texas
Funding from multiple sources:
• State Of New Mexico provides a base budget
• $1,859,815
• Work for other state agencies
• $45,000
• Federally funded research
• $4,110,914
• Industry and Industrial consortia
• $316,492
FY 2017 Budget: $6,287,221
State Federal Industry
PRRC FINANCES
30%
65%
5%
PRRC FINANCES
$1,965,900 $1,989,400 $2,036,715 $1,997,022 $1,859,815
$530,670 $297,603 $654,849 $603,138
$316,492
$1,556,099 $2,248,536 $2,093,890 $2,730,654 $1,795,712
$4,779,327
$11,243,572
$7,396,030
$1,080,350 $2,315,202
0
2,000,000
4,000,000
6,000,000
8,000,000
10,000,000
12,000,000
14,000,000
16,000,000
18,000,000
FY 2013 FY 2014 FY 2015 FY 2016 FY 2017
PRRC Expenditures by Fiscal Year
Federal - Subs
Federal - PRRC
Industry
State
THE PRRC SUPPORTS NEW MEXICO TECH
Institutional Support FY 2016
Overhead $ 528,282 Students $ 450,401 Faculty $ 72,393 Restricted Funds* $ 100,000 Physical Plant* $ 100,000 ISD* $ 30,000 OnePetro* $ 5,250
Total $ 1,286,326
*Fixed Costs - $235,250/ year
Overhead
Students
Faculty
Restricted Funds
Physical Plant
ISDOnePetro
$-
$200,000
$400,000
$600,000
$800,000
$1,000,000
$1,200,000
$1,400,000
$1,600,000
$1,800,000
FY 2013 FY 2014 FY 2015 FY 2016 FY 2017
PRRC Support by Fiscal Year
Restricted Funds Physical Plant ISD OnePetro Overhead Students Faculty
THE PRRC SUPPORTS NEW MEXICO TECH
Average Overhead $721,348
Average Student Support $498,007
PRRC STUDENT AND FACULTY SUPPORT
• Support an average of 43
students per year
• Provide summer salary to an
average of 5 faculty per year
• Students and faculty from many
departments on campus, including:• Petroleum Engineering
• Chemical Engineering
• Materials Engineering
• Electrical Engineering
• Civil and Environmental Engineering
• Earth and Environmental Science
• Chemistry
• Computer Science
• Engineering Management
44
54 54
34
28
4 5 5 7 4
-
10
20
30
40
50
60
FY 2013 FY 2014 FY 2015 FY 2016 FY 2017
PRRC Students and Faculty
Number of Students Number of Faculty
FUNDED RESEARCH
• Twelve active projects in 2016
• Federally funded projects
• Industry based projects
• Largest project was the “Southwest Partnership on Carbon
Sequestration: Phase III”
• 15 year $90 million Carbon Capture / EOR demonstration project U.S. DOE
• Smallest project was “Simulation of Impact of Short Radius Laterals”
• 1 year $30,000 for ViperDrill LLC
NON-FUNDED RESEARCH
Numerous 2017 non-funded research projects, including:
• Determination of source of injectivity issues for Queen sand waterfloods
• Lab work for Beach Exploration
• Simulation Study of Acid Gas Injection into the Cherry Canyon
Formation, Delaware Basin, New Mexico
• MS thesis to study plume extent for an existing acid-gas disposal permit
• Go-TECH website
ongoing maintenance and software upgrades for free production database
which gets 3-5 million hits per year
9
15 16 15
12
-
5
10
15
20
25
30
35
FY 2013 FY 2014 FY 2015 FY 2016 FY 2017
Proposal Activity
Proposals Submitted New Projects Awarded Ongoing Projects
THE PRRC ACTIVELY PURSUES FUNDING
Note: Proposals funded may not be awarded in the same fiscal year proposed
Average 6 / year
Funded
Average 14 / year
Proposed
TECHNOLOGY TRANSFER
12 13 10 12 14
111 10
25
10
11 19
20
10
30
0
10
20
30
40
50
60
FY 2013 FY 2014 FY 2015 FY 2016 FY 2017
Reports, Papers, Presentations
Reports Papers Presentations
WEB TOOLSNM State Land Office Site
GO-TECH Web Site (production
data, well info, Data analysis. etc)
Regulatory Mapping tools
– Pit Rule and other uses
5-6 million page views each year!
WATER FILTRATION – HOLLOW FIBER MEMBRANES
• Polymeric hollow fiber membranes have been fabricated at PRRC
for produced water treatment. The removal efficiency for organics
salt removal is greater than 95% under a relatively low pressure
(less than 30 psi).
CO2 EOR
10% 21% 30%?
• Southwest Partnership – Co-optimizing CO2 storage and enhanced oil
recovery at Farnsworth Field. Demonstrating benefits of using/storing
1,000,000 tonnes of anthropogenic CO2 to simultaneously store
carbon and improve ultimate oil recovery.CO2 Saturation
HIGH GRADING THE MANCOS SHALE
• Mancos shale
development in San
Juan Basin – compiled
well data, production
data, and geological
information to help
predict areas of
highest potential for
Mancos oil play
development
POTASH CONSORTIA
• Potash area evaluation – compile
well, production and economic
data to determine impact of oil
and gas development in the area
• 10 COMPANIES
• BOPCO, CHEVRON, DEVON,
XTO, OXY, EOG, CONCHO,
STRATA, CIMAREX, YATES
NEW: SHALE OIL/GAS CONSORTIUMPurpose – to conduct an industry-directed research program that will
provide useful information that will increase and enable more cost-
efficient and environmentally-sound recovery from shale resources.
• Looking for members/stakeholders (NW Mancos, SE Var. Formations)
• Technical/Academic
• Industry
• Legal
• Public
• Regulatory bodies
• Contact: Martha Cather – [email protected] – (575) 835-5685
NEW: PRODUCED WATER CONSORTIUM
Purpose – to explore regulatory changes and technical/engineering
challenges to overcome to allow beneficial use of produced water
• Looking for members/stakeholders
• Technical/Academic
• Industry
• Legal
• Public
• Regulatory bodies
• Contact: Robert Balch – [email protected] – (575) 835-5305
In 2016 NM produced nearly 36 billion gallons of water!
SERVICE TO NEW MEXICO PRODUCERS
• Service to New Mexico producers is an integral part of the PRRC
mission
• Low oil and gas price environment challenges producers and
development decisions have more weight
• PRRC can add specialized expertise to operations and help reduce
risk while enhancing production
• PRRC can perform no, or at-cost lab analyses and other services to
jumpstart projects
WHAT CAN THE PRRC DO FOR YOUR COMPANY?
ACTIVE PATENTS
• Six active patents
• Focused in two areas:
• Produced water purification (4)
• Instrumentation (2)
• Additional opportunities in:
• Nanotechnology
• Gas sampling
• Sensors
RESEARCH GROUP CAPABILITIES
Nanoparticle-stabilized CO2 foams for enhanced oil
recovery
• Formulation of nanoparticle-stabilized CO2 foams for
enhanced oil recovery
• Advantages of nanoparticle-stabilized CO2 foams
include excellent chemical stability, low retention on
mineral surfaces, and long-term CO2 foam stability.
• Decrease in CO2 mobility.
• Improvement of CO2 sweep efficiency.
Development of chemical sensors for downhole
monitoring
• Fabrication and development of chemical CO2
sensors
• Simulation of CO2 storage process.
Advanced Materials in Hydrocarbon Production
Section Head: TBD
Alkali Surfactant Polymers (ASP)
Research Scientist: Dr. Guoyin Zhang
Surfactant Flooding
• Develop and formulate high-efficiency surfactants for
ASP flooding and SP flooding
• Develop novel surfactant formulations that can be
used in low pH environments, such as CO2 floods
• Develop uses of chemical EOR for soil remediation.
Lab Analyses
• Interfacial tension measurement.
• Fluid rheology measurement in a viscometer and in
porous media.
• Surfactant/oil/brine phase behavior tests.
• Chemical retention in porous media.
• Evaluation of oil recovery efficiency by coreflooding.
RESEARCH GROUP CAPABILITIESPetrophysics and Surface Chemistry
Research Chemist: Tianguang Fan
• Focuses on surface and interfacial properties of
crude oils
• wettability alteration
• crude oil/brine/rock interactions
• the stability of asphaltenes
Capabilities
• Asphaltene-Instability-Trend (ASIST) Predictions
• Asphaltene Deposition Tests
• Wettability Measurements
• Crude Oil analyses:
• Refractive index, density
• Viscosity as a fuction of temperature
• Compositional analyses
• Water Analyses
• pH, conductivity, alkalinity, major ions, TOC
Produced Water and Petroleum Engineering
Research Scientist: Dr. Jianjia Yu
• Pursues advanced methods in membrane
technology for produced water treatment.
• hollow fiber membranes using a two-stage
nanofiltration process.
Capabilities
• Analysis of porous media
• Porosity
• Surface area
• Nanoparticle generation and quantification
• Organic composition analysis
• Hollow fiber membrane fabrication
• Gas chromatograph
• TOC analysis
• Bench and pilot scale testing
RESEARCH GROUP CAPABILITIES
• Reservoir characterization studies utilizing data at all
scales, to support reservoir simulation models
• Field and regional scale geologic modeling using well
and seismic data
Capabilities
• Reservoir characterization
• Construction of geologic models
• Reservoir simulation
• Enhanced oil recovery project planning
• Regulatory impacts on site planning
• Produced water management
• Development of computer and web application
software and hardware
Reservoir Evaluation/Advanced
Computational Technologies (REACT)
Section Head: Dr. Robert Balch
Industry Service and Outreach Group
Section Head: Martha Cather
• Go-Tech - Oil and gas production, price, and well
activity, provided in a quick, accurate, and easy-
to-use format.
• Water quality data for ~9,400 oil and gas wells
in NM, water volume data for over 75,000 wells
Capabilities
• Geological characterization at core and
microscope scale
• Study deposition and diagenesis to determine
porosity and permeability.
• Core studies
• Basic petrographic studies
• Detailed thin section analysis
• Microprobe analysis
• Play and resource evaluation
• Mapping and data analysis
RESEARCH GROUP CAPABILITIESReservoir Sweep Improvement Group
Section Head: Dr. Randall Seright
Develop methods to prevent fluid channeling through
reservoirs and to reduce excess water and gas production
during oil recovery
Polymer Flooding
• Polymer rheology in viscometers and in porous media
over a very wide range of concentrations, salinities,
and shear rates/velocities
• Tests in porous media with permeability from 1 to
15000 md, in all wettabilities,
Gel Treatments
• Excess water production problems, especially those
involving fractures.
• Placement and sizing procedures for gel treatments.
• Laboratory studies extensively characterizing the flow
properties of gels in fractures and porous media
Gas Flooding Processes and Flow
Heterogeneities
Section Head: Dr. Reid Grigg
The Gas Flooding and Flow Heterogeneities Group
pursues CO2 and EOR related research
• Carbon sequestration or storage in geologic
formation, focusing on oil, gas, coal-bed and water
aquifer formation.
• Improving conformance control and sweep
efficiency in CO2 flooding.
• Understanding and managing injectivity changes
associated with water alternating with gas injection
(WAG).
• Improving the modeling capability of CO2 foam-
enhancing processes and WAG injection.